RU2700142C1 - Method of forecasting explosion hazard of mined-out area of a mining face - Google Patents

Abstract

FIELD: mining.

SUBSTANCE: invention relates to method of forecasting explosion hazard of mined-out area of mining face. Method of forecasting explosion hazard of mined-out space of mining face includes measurement of air flow rate, concentration of gases of hybrid mixture and their ignition temperature. Points for determination of gas-dynamic parameters with an interval of location are selected along the length of the lava. Spacing interval is multiple of minute speed of coal mincer deflection. Airflow flowing through the lava in the passages between the support sections is measured. Differences of air flows on incoming and outgoing jets are used to determine air leaks from lava into mined space. Potential explosion hazard of the mined space is determined by volume of air leaking from the lava and hazard index of the hybrid mixture. Danger index of the hybrid mixture is the product of the content of the most dangerous component in the gas sample on the binding energy of that component.

EFFECT: forecast of potential explosive hazard of mined-out area of mining face.

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Description

The invention relates to mining, mainly to the coal industry, and can be used in the mining of hazardous gas and dust coal seams with treatment faces.

The invention is aimed at predicting the potential explosiveness of the developed lava space, taking into account the composition of the hybrid mixture (methane, hydrogen, hydrogen sulfide, fine coal and pyrite dust), capable of exploding in a mixture with atmospheric oxygen or in a mixture with air, methane and other gases. The goal is achieved by measuring the components of the hybrid mixture, the flow rate and dustiness of the air flowing from the bottomhole space of the lava into the mined-out space of the working face.

There is a method of determining the aerological parameters of the bottomhole space of the active lava, including gas and dust surveys in the bottomhole space of the working face and air leaks from the lava into the mined-out space (Guide for the design of ventilation of coal mines. Makeevka-Donbass, 1989. - 319 s; p. 39, 61 -64, 108, 129, 156).

The disadvantage of this method is the inability to determine the gas components that make up the hybrid mixture, and the dustiness of the air flowing from the bottomhole space of the lava into the mined-out space.

There is another way to determine the aerogasdynamic parameters of lava and dust content of mine workings, including measuring air flow and dust content by conducting gas and dust surveys at a district complex of dust removal measures in order to choose means to reduce dust content of mine air to a standard value (Ruban A.D. Geotechnological problems of developing hazardous on gas and dust of coal seams. IPKON RAS. - M .: Nauka, 2007. - 279 s; p. 51).

The disadvantages of this method include the lack of operations to determine the components that make up the gas hybrid mixture, and the dustiness of the air flowing from the bottomhole space of the lava into the mined-out space.

The closest in technical essence and in the achieved result is the technical solution set forth in patent RU No. 2536544 C1 for a method for predicting the risk of explosions of hybrid mixtures in mines and mines, including measuring air flow, gas volumes and gas concentration of the hybrid mixture.

And this method has inherent disadvantages in that 1) its scope is limited by the time period for reducing air flow and, consequently, an increase in gas concentration, and 2) its use for predicting the explosion-hazard of the worked out space during normal working face coal mining.

The purpose of the invention is a forecast of the potential explosiveness of the mined-out space by measuring the aero-gasdynamic parameters of the bottomhole space of the active lava, taking into account the minute speed of the shearer moving along the coal face, the geometric parameters of the bottomhole space of the lava, air flow and its components, air leaks into the mined-out space.

According to the invention, the goal is achieved by the fact that in the method for predicting the explosiveness of the worked-out face space, including measuring the air flow rate, the gas concentration of the hybrid mixture and their ignition temperature, points of measurement of the gas-dynamic parameters of the lava are selected along the length of the lava with an interval of their placement that is a multiple of the minute speed of movement of the shearer for breaking coal, in the strip of the working face adjacent to the mined space, measure the flow of air flowing through the lava in inspections between the sections (racks) of the lining, the air leakage from the bottomhole space of the lava into the mined-out space is determined by the difference in the air flows in the allocated strip on the incoming and outgoing jets, the potential explosiveness of the mined-out space is determined by the volume of air leaking from the lava and the hazard indicator of the hybrid gas component.

A method for predicting the explosiveness of the worked out face space is as follows.

In the coal seam section prepared for mining, equipped with a mechanized complex (KMZ) with the specified parameters, the geometric dimensions of the lining for the air passage are measured, including the height and width of the passages for the combine (passage 1), miners (passage 2) and the strip adjacent to the mined space (passage 3). The light section of the said passages is determined, the air flow rate in them, the flow rates of air flowing in the cross section of the selected passages of the face. Permanent sections are sections on the stream of air entering the lava and on the outgoing from it. In the main part of the length of the working face, usually 4-5 points are distinguished, in the cross sections of which the gasdynamic parameters of the lava are measured (cross section in the light, air velocity, concentration of gases making up the hybrid mixture, the content of total and finely dispersed coal and pyrite dust in the air). Selected in sealed vessels of a given volume of air samples in each passage and conduct gas analysis of its composition in laboratory conditions (concentration and content of components of the hybrid mixture). At the same time, the points of measurement of the gas-dynamic parameters of the lava are placed at intervals that are a multiple of the minute speed of the combine's movement for breaking coal.

The measured parameters in the passages and in general in the cross sections of the lava are compared with each other and determine their share in the cross section of the passage near the mined space, including the length of the lava.

The concentrations of the gases that make up the gas hybrid mixture are determined in highly sensitive laboratory installations. By the concentration of gases contained in the hybrid mixtures, the components of the mixture and their specific content in the selected sample are established, taking the gas mixture in the lava section for 100%. In this case, the binding energy of the components (kJ / mol) is taken into account, which is equal for methane 420, hydrogen sulfide - 363, hydrogen - 433, hydrogen sulfide - 538, carbon monoxide - 1076. The most dangerous component of the hybrid mixture is isolated by the ignition temperature, taking into account the fact that the temperature methane ignition is 650-750 ° C, its induction period is 2 ms, the limits of explosive concentrations are 5.3 ... 14% by volume. Coal dust ignites at 575-850 ° C, its induction period is 40-120 ms, the explosiveness by weight is 5 ... 300 g / m ³ .

The explosive hazard index is determined as the product of the content of the most dangerous component (in gas coal mines it is methane) in the selected sample by its binding energy (kJ / mol). This value is an indicator of the danger of the hybrid mixture.

By the volume of air leaking from the lava into the mined-out space and the hazard indicator, the components of the hybrid mixture establish the potential explosion hazard of the mined-out space. The criterion is usually taken as an indicator of the most dangerous gas component of the hybrid mixture.

The amount of fine coal and / or pyrite dust in the air flowing from the face of the lava into the mined-out area enhances the consequence of the accident, if it took place. The measured volumes of this dust in the air passage adjacent to the mined-out space (passage 3) are summed up and multiplied by the time of the operation of the combine in minutes during the day for the breaking (destruction) of coal in the lava.

With regard to non-gas mines, the obtained value (volume of dust) from such a product and by the flow rate of air flowing from the lava to the mined-out space determine the amount of dust entering the mined-out mine during the day. In this case, the daily lava movement, the area of exposure of the soil of the formation are taken into account and the specific dust deposition in the worked out space of the lava is determined. The dust (finely dispersed) in the air, which primarily can explode in a non-gas mine, is established taking into account its share in the selected dust samples.

The introduction of a method for predicting the explosiveness of a mined-out working space will allow us to evaluate the actual gas and dust situation in a mining area and recommend effective technological solutions to prevent the formation of explosiveness of a mined-out working-out space.

Claims (1)

A method for predicting the explosiveness of a mined-out working face space, including measuring air flow rate, gas concentration of the hybrid mixture and their ignition temperature, characterized in that along the length of the lava there are points for measuring the gas-dynamic parameters of the lava with an interval of their placement that is a multiple of the minute speed of the shearer moving along the coal breakdown, in the strip of the working face adjacent to the mined-out space, the flow rate of air flowing along the lava in the passages between the support sections is measured, by the difference air currents in the selected strip on the incoming and outgoing jets determine air leakage from the bottomhole space of the lava into the mined space, by the volume of air flowing from the lava and the hazard indicator of the hybrid mixture, which is the product of the content of the most dangerous component in the gas sample by the binding energy of this component, set potential explosiveness of the developed space.